Grain-size reduction undermines the importance of viscous shear heating in lithospheric mantle shear zones Grain-size reduction undermines the importance of shear heating
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Active plate tectonics require weak boundaries that accommodate large strain over long time periods. Many studies argue that shear heating converted from dissipated mechanical energy may be responsible for the necessary weakening in the mantle lithosphere to initiate and sustain weak plate boundaries. Here, I present simple numerical simulations of pure olivine systems with a composite diffusion-dislocation creep rheology coupled to a self-consistent grain size evolution model to investigate the effect of grain size reduction on shear heating. Results demonstrate that the weakening related to grain size reduction and the activation of grain-size-sensitive diffusion creep undermines the importance of shear heating in mantle shear zones. Depending on shear zone width, shear velocity and apparent stresses, estimations on ideal shear zone widths and viscosities are presented.
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(c) J.B. Ruh, 2025
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